tool and die industry

8/13/2019 Tool and Die Industry

1/20

CRS Report for Congress Prepared for Members and Committees of Congress

The Tool and Die Industry: Contribution toU.S. Manufacturing and Federal PolicyConsiderations

Bill CanisSpecialist in Industrial Organization and Business

March 16, 2012

Congressional Research Service

7-5700www.crs.gov

R42411


2/20

The Tool and Die Industry


SummaryTools, dies, and molds are fundamental to durable-goods manufacturing. Tools are used to cut andform metal and other materials. Dies are metal forms used to shape metal in stamping and forging

operations. Molds, also of metal, are used to shape plastics, ceramics, and composite materials.Tool and die companies, typically small businesses staffed by skilled craft workers, make it possible for their customers to manufacture innovative products, from auto parts to householdappliances to fighter planes.

Since 1998, over one-third of U.S. tool, die, and mold establishments have gone out of business,closing at twice the rate of manufacturers in general. Employment has fallen by nearly half. Someof that decline is due to the introduction of new technology that has reduced the need for highlytrained toolmakers and die makers. About half of toolmakers work is for the motor vehicleindustry, and the steep downturn in U.S. vehicle production was a significant factor in theirdecline. In addition, the industry has lost ground because of the shift of major U.S. customersabroad, especially to China, where U.S. manufacturers generally use local toolmakers.

Compounding that trend is the expansion of foreign auto manufacturers in the United States,some of which reportedly retain ties to tool, die, and mold makers in their home countries.

The health of tool and die makers is likely to be of concern to Congress, because they are a small but critical part of durable goods manufacturing. Congress has long shown special concern for theindustry because of the highly skilled nature of the jobs it provides and because of its importanceto manufacturing. The issues facing the tool and die sector are a microcosm of the challengesfacing policymakers as they seek to promote high-value manufacturing in the United States.

In addition to global competitiveness issues, the tool, die, and mold industry may face a skillsshortage. The average age of a toolmaker is 52, and many experienced toolmakers are expected toretire in the next few years. Managers of tool and die companies say there is a lack of workerswith sufficient training in mathematics and in technology applications to replace workers as theyretire.

The industrys prospects are closely tied to the outlook for durable-goods manufacturing ingeneral. The revival of auto manufacturing and the domestic expansion of other durablesmanufacturers in the United States may offer new opportunities for firms that have survived thetool and die industrys long slump. On the other hand, contraction of defense procurementspending could hurt tool and die makers, and the increase of Chinese auto parts imports may posenew challenges.

Federal policy options include support for worker training and technology programs, extension oftax incentives for purchasing new equipment and greater scrutiny of alleged subsidies of foreigntool and die makers.


3/20



ContentsIntroduction............................ ................. ................. .................. ................. ................. .................... 1 An Industry of Small Businesses................ ................ ................. ................. ................. .................. 2 Where are Tool and Die Makers Located?..................... ................. ................. ................. ............... 4 Factors Behind Tool and Die Demand.................. .................. ................. ................. ................. ...... 5 Global Competition .................. ................. .................. .................. ................. .................. ............... 6 The Tool and Die Labor Force.... ................ ................. ................. ................. ................. ............... 10

The Next Generation ................ .................. ................. .................. ................. .................. ....... 11 Federal Policy Issues ................. ................. ................. .................. ................. ................. .............. 13

Figures

Figure 1. A Cast Iron Mold ................. ................. ................. ................. .................. .................. ...... 4

TablesTable 1. U.S. Manufacturing and Tooling Trends.......... ................. ................. ................. ............... 3 Table 2. Top States in Tool, Die, and Mold Employment...... ................ ................. ................ ......... 4 Table 3. Trade in Tools, Dies, and Industrial Molds ................ .................. ................. .................. ... 7 Table 4. Industry Skills Building Initiatives ................. ................. .................. ................. ............. 12

AppendixesAppendix. The Link between Die Making and Auto Manufacturing ................ ................. ........... 16

ContactsAuthor Contact Information.......................... .................. ................. .................. .................. .......... 17


4/20


Congressional Research Service 1

IntroductionTool and die manufacturing has long been considered a key industrial sector. Congress has been

concerned about its health for at least two centuries, since Eli Whitney, an early Americaninventor, used the antecedents of todays tools and dies to manufacture interchangeable firearms parts for use by the U.S. government in the War of 1812. 1 During World War II and part of theVietnam War, toolmakers could be exempted from the military draft because they were deemedcritical occupations. 2 In 1970, a congressional committee found that the tool, die and

precision machining industry, as a supplier of basic production equipment, has been andcontinues to be a very important factor in meeting the commercial needs of the country. 3 And atthe beginning of twenty-first century, the Chairman of the House Ways and Means Committeerequested the U.S. International Trade Commission to study the industrys health in light ofglobalization trends. 4

The tool and die industry is of particularconcern at present due to the generalcongressional interest in spurring domesticmanufacturing. Without the manufacturerswho design and make the tools, dies, jigs, andmolds used to make other products, a revivalof the domestic auto and appliance industrieswould be difficult to envision. 5 The autoindustry alone accounts for half of all toolingconsumption, 6 and much defense-related manufacturing also requires tools and dies.

While the tool and die industry has always been subject to U.S. economic swings and foreigncompetition, the rise of Chinas manufacturing sector over the past decade had brought it under

particular stress. In 2006, one tool and die maker testified before a commission on U.S.-Chinarelations that:

companies are facing fierce foreign competition as the OEMs [original equipmentmanufacturers] are purchasing parts, tools and dies and molds in China for as much as 35%less....The Chinese build tools that require more maintenance as labor is cheap in their

1 Encyclopdia Britannica, Tool and Die Making , Academic Edition,http://www.britannica.com/EBchecked/topic/599441/tool-and-die-making.2 U.S. Congress, House Armed Services, Extension of the Universal Military Service and Training Act , 90 th Congress,1st Session, May 2, 1967, pp. 2073 and 2551.3

U.S. Congress, House Select Committee on Small Business, Problems Facing the Tool and Die Industry , committee print, 91st Cong., 2nd sess., February 9, 1970, H.Report 91-832, p. 1.4 Letter from Bill Thomas, Chairman, Committee on Ways and Means, to Stephen Koplan, Chairman, U.S.International Trade Commission, December 20, 2001.5 According to one tool builder, the Chinese recognize the significance of tool and die making by referring to theindustry as the mother of manufacturing. CRS interview on February 6, 2012 with Michael Korneli, president,Bestech Tool Corp., West Bend, Wisconsin, http://www.bestechtool.com.6 U.S. International Trade Commission (USITC), Tools, Dies, and Industrial Molds: Competitive Conditions in theUnited States and Selected Foreign Markets , USITC Publication 3556, October 2002, p. xiv.

What Are Tools and Dies?

A tool is a precision device for cutting or shaping metalsand other materials.

A die is a form used to shape metal in forging andstamping operations. Dies also include metal molds usedin making plastics, ceramics, and composite materials.

A jig is used to hold metal while it is being drilled, boredor stamped.


5/20



country and in many instances do not use robust steels. They supply a cheaper tool that can be built for less, yet customers put their prices against ours. 7

Foreign competition, application of new technologies, and two recessions caused a loss of morethan a third of all tool and die establishments since 1998 and a reduction of the workforce by

nearly half. There are signs that the tide may be turning: U.S. durable-goods manufacturingappears to be reviving, which could benefit U.S tool and die makers. But due to technologicalchange, the industry is likely to operate differently than in the past, and to require a workforcewith a different set of skills.

This report reviews the role of tool and die makers in durable goods manufacturing andsummarizes federal policy issues which may affect its future.

An Industry of Small BusinessesThe tool and die industry represents a tiny portion of U.S. manufacturing, with total sales of $11.7

billion in 2010. Nonetheless, it has an instrumental role in manufacturing. A 1975 analysiscaptured the nature of the industry:

While mass production is made possible by tooling, the principal tools themselves cannot bemass produced. Tool making, and especially mold and diemaking, is one of the few activitiesconnected with modern large-scale industry in which there has not been a generalsubstitution of machinery for basic skills. These tools are custom-made, one-at-a-time byskilled artisans who patiently and precisely machine, finish, and construct the complicateddevices. Only one die, or set of dies, is needed for the manufacture of many thousands, andsometimes millions, of automobile fenders or hoods of a given design.... The one-of-a-kindcharacteristic of the tooling industry accounts for enormous differences in management andcapitalization strategies, and the skills, machinery, and technology amenable to tooling-making and mass production. 8

The tool and die industry is primarily made up of small businesses using skilled employees withmany years of experience. Nine out of ten tool and die industry firms employ fewer than 50workers. 9 These firms are generally privately owned and often family operated.

As shown in Table 1 , the number of U.S. tool and die establishments dropped by 36% between1998 and 2010, more than twice the rate of decline in the total number of manufacturingestablishments. Employment in tool and die has dropped more steeply as well.

7 U.S.-China Economic and Security Review Commission, China's Impact on the U.S. Auto and Auto Parts Industries ,Panel on "Perspectives of Tool and Die Manufacturers", 109th Cong., 2nd sess., July 17, 2006, Statement of LaurieSchmald Moncrieff, President, Schmald Tool and Die, Inc., Flint, Michigan, p. 145.8 Harold E. Arnett and Donald N. Smith, The Tool and Die Industry: Problems and Prospects (Ann Arbor, Michigan:Graduate School of Business Administration, the University of Michigan, 1975), p. 6.9 USITC, Tools, Dies, and Industrial Molds , p. xiii.


6/20



Table 1. U.S. Manufacturing and Tooling Trends

Category 1998 2005 2008 2010

PercentChange

1998-2010

Employment

Manufacturing 17,616,672 14,190,394 13,382,697 11,487,496 -35%

Tooling 162,032 119,308 107,187 89,661 -45%

Annual payroll

Manufacturing $679 billion $699 billion $728 billion $661 billion -3%

Tooling $6.9 billion $5.7 billion $5.4 billion $4.7 billion -32%

Number of establishments

Manufacturing 412,453 365,351 359,844 342,844 -17%Tooling 9,057 7,192 6,393 5,789 -36%

Source: Bureau of Labor Statistics (BLS) , Quarterly Census of Employment and Wages.

Notes: Tooling refers to NAICS Codes 333511 (Molds) and 333514 (Dies, Jigs & Fixtures). The NorthAmerican Industrial Classification System (NAICS) is the standard used by federal statistical agencies in classifyingbusiness establishments.

Tool and die making contracted more than overall manufacturing because of the nature of that business. Tool and die makers rely on a continuous flow of new orders for tools, dies and moldsto make new products. As long as their larger manufacturing customers are updating vehicles,appliances, or other products, there is a steady need for tools and dies. But when their customersretrench, tool and die production is affected disproportionately. As one tool and die expert noted,contrasting tooling with other kinds of manufacturing, ifthe build volume of an existing carmodel dropped by 20%, the parts manufacturer would experience a 20% drop in business. Butwhen a project is cancelled or delayed, the tool and die makers would see their business drop

precipitously maybe dropping to zero, if things got really bad. 10

Although tool and die firms are small in number and total employment, they play a central role inmanufacturing innovation: any durable-goods manufacturer seeking to introduce a new product islikely to require customized tools, dies, and molds to make metal, plastic, and ceramiccomponents. While most tool and die production is used to make consumer durable goods, theindustry also plays an important role in manufacturing of such military equipment as jet aircraft,missiles, tanks, and electronics.

Figure 1 shows a simplified example of a part being made in a die. The die maker creates the two parts of the mold. Molten metal, propelled in this example by gravity, is poured into the shape andwhen it has hardened, the two sections are pulled apart to release the newly formed part. 11 This

10 CRS interview on February 15, 2012 with William Gaskin, president, Precision Metalforming Association (PMA).Conversely, there can be sharp jumps in tool and die demand once durable-goods orders start to rise in an economicrecovery.11 Gravity die casts are only one type of die casting. Others include centrifugal casting, sand casting, and pressure die(continued...)


7/20



process is performed over and over again. Sometimes a new mold is used each time; in othercases, the mold is reused many times. Without the mold made by the die maker, it would not be

possible to mass produce the parts.

Figure 1. A Cast Iron MoldHow Gravity Die Casting Works

Source: Industrial Metal Casting, http://www.industrialmetalcasting.com/gravity-die-casting.html.

Where are Tool and Die Makers Located? Nearly every state has some tool and die making capacity, but the upper Midwest generally hasthe largest numbers of companies and employees because tool and die makers are closely tied to

durable goods industriessuch as motor vehicle and applianceswhich have plants in thatregion. The top ten states by number of tool, die and mold makers are listed in Table 2 . The twooutliers are California and New York: California is the largest manufacturing state in the UnitedStates, with a large aerospace sector, and New York has a number of auto parts suppliers.

Table 2. Top States in Tool, Die, and Mold EmploymentStates ranked by 2010 employment

State 2001 2010PercentChange

Michigan 30,208 18,871 -27%

Ohio 17,056 11,075 -28

Illinois 12,822 6,815 -31

Pennsylvania 11,811 6,476 -30

Wisconsin 7,309 5,359 -13

(...continued)casting.


8/20



State 2001 2010PercentChange

Indiana 8,571 5,228 -31

California 7,253 4,885 -23

Missouri 4,371 3,133 -11New York 5,171 2,783 -30

Minnesota 3,933 2,749 -13

Source: Bureau of Labor Statistics (BLS), Quarterly Census of Employment and Wages, 2001-2010,http://www.bls.gov/cew/.

Note: Employment shows those working in tools, dies and jigs (NAICS 333514) and industrial molds (NAICS333511). The North American Industrial Classification System (NAICS) is the standard used by federal statisticalagencies in classifying business establishments.

Factors Behind Tool and Die DemandDuring the recent recession, U.S. durable goods orders fell by more than 21%, affecting all themajor civilian customers of tool and die makers. 12 The current recovery in durable goodsoutputrose 7.9% between the final quarter of 2010 and the fourth quarter of 2011is likely to bolsterdemand for tools and dies. 13

Data on the extent of tool and die work in durable goods markets are not available, but estimateshave been made for stampings (which approximate the die industry) and industrial molds. Forstampings, the largest end users are: motor vehicle industry (50% of all stampings), appliances(5%), other motors/agricultural equipment (5%), construction industry(4%), and cookware (4%).For industrial molds, 41% of production is sold to the motor vehicle industry, 16% to electronicsmanufacturers, and 14% to appliance makers. 14

The motor vehicle industry is thus the major end user of tools and dies. Like all auto suppliers,tool and die makers have been adversely affected by the downturn in the motor vehicle marketsince 2007. U.S. production of cars and light trucks fell by 31% between 2006 and 2010, one ofthe steepest declines in decades. This had an immediate impact on suppliers such as tool and diemakers. When motor vehicle manufacturers cut back on design changes and reduce new modelintroductions, they need far fewer tools, dies, and molds. Since the trough of the recession in2009, the domestic motor vehicle industry has recovered, with US-made car and light truck

production increasing by over 50% from 2009 to 2011. 15

12

U.S. Census Bureau, Manufacturers New Orders: Durable Goods, as reported by the St. Louis Federal ReserveBank, http://research.stlouisfed.org/fred2/series/DGORDER/downloaddata?cid=32431.13 Output growth for durables manufacturing is taken from Federal Reserve Board, G.17 Industrial Production andCapacity Utilization, February 15, 2012.14 USITC, Tools, Dies, and Industrial Molds , Chapter 3, pp. 21-22.15 U.S. car and light production rose from 5.8 million units in 2009 to 8.7 million units in 2011. Because of the ongoing

problems in the housing market, where many appliances are sold, the appliance industrys sales have been flat for the past three years. Sources: North American Car and Truck Production, Automotive News , and Annual ShipmentTrends, Association of Home Appliance Manufacturers.


9/20



In general, U.S. manufacturers have moved away from making long runs of standardized productsand toward production of more complex and customized products. This is relevant to the tool anddie industry because the process of bringing forth new products hinges on the ability of tool anddie makers to translate a blueprint into an accurate mold or die that will, in turn, produce the

product innovation. Sales of tooling often depend on the introduction of new products which

require new stampings, molded plastic parts, and die castings.

Tools and dies can be critical in the non-durables sector as well. In one publicized case, a toolingcompany in Redmond, Washington helped Microsoft design the molds used for a soap bar-shapedcomputer mouse; the mouse had eight components, requiring multiple molds so that any one ofthe components could be switched out. The same company was approached by a molder whomade plastic disks for a blood centrifuge. The toolmaker needed to come up with a mold thatwould produce disks containing tiny channels with precise dimensions, although the changeswere too small to be seen with the naked eye. 16

To meet such demands, tool and die makers are often forced to invent new technologies. Onecompany in Houston, TX specializes in a type of tooling known as electrical discharge machining

(EDM). According to a handbook developed by the owner, in the early 70s, a typical wire EDMmachine cut two square inches an hour; today they are rated to cut 20 times faster and producesubmicron finishes. The resulting products are used in such fields as medical and dentalinstruments and space-industry applications. 17

Even as the tool and die industry is aided by a recovery in commercial manufacturing, it may beadversely affected by potential reductions in defense industries: if budget constraints lead tofewer new planes, tanks, and vehicles, the makers of such products will need fewer tools and dies.If, however, the armed services are forced to keep older equipment (such as the B-52 bomber) inoperation, the tooling industry could benefit. Tool and die makers have a potential role in

producing parts for military equipment that may remain in service long after the originalmanufacturers have stopped supplying parts. Repairing such legacy systems may require tool anddie makers to build new tools and dies to recreate the necessary parts. 18

Global CompetitionU.S. manufacturing has been buffeted by rising manufacturing capacity and employment abroad.The shift in the tool, die and mold industry has been especially pronounced over the past decade.The National Tooling and Machining Association (NTMA) estimated that 30% of U.S.toolmakers closed just between 2000 and 2003. In 2003, a Wall Street Journal report noted that

U.S. toolmakers withstood growing competition from lower-cost foreign producers for years.But Chinas sudden emergence as a manufacturing powerhouse and an unbeatable pricingopponent has them reeling. 19

16 Appel, "With Foreign Rivals Making the Cut, Toolmakers Dwindle.17 Carl Sommer and Steve Sommer, M.E., "Understanding Electric Discharging Machinery," in Complete EDM

Handbook (Houston, 2005), p. 22. Carl Sommer founded Reliable EDM, a tooling company. This handbook is used asa textbook in some colleges and technical schools.18 "Upgrades to Keep B-52s Flying Through 2040," Air Force Times , October 4, 2011.19 Appel, "With Foreign Rivals Making the Cut, Toolmakers Dwindle.


10/20



Foreign competition is not new to this industry, as tools, dies, and molds have long been tradedglobally among major industrial countries. In the past, because of the close relationship betweenthe two economies and unrestricted cross-border trade in motor vehicles, Canada has been amajor source of tools, dies, and molds as well as an export market for U.S. manufacturers. Sincethe end of the 1990s, imports have increased more rapidly than exports. The most significant

change has been the 268% rise in the importation of industrial molds, as shown in Table 3 .

Table 3. Trade in Tools, Dies, and Industrial MoldsMillions of U.S. dollars

Product Exports Imports

Molds

1997 $648 $1,291

2010 717 4,745

Tools, dies and jigs

1997 442 696

2010 488 851

Total

1997 1,090 1,987

2010 1,205 5,596

Source: CRS analysis based on statistics from the U.S. Department ofCommerce and U.S. International Trade Commission (USITC).

The rising industrial mold imports originate largely in Japan, the Netherlands, China, Germanyand South Korea. When Canadian molds are included, these six countries account for nearly 90%

of all mold imports, with Japan alone accounting for nearly half.20

Exports of molds have onlyincreased modestly since 1997 but the trade pattern has shifted as well, with Mexico replacingCanada as the largest market for U.S. molds. 21

Tool and die imports have risen by about 22% since 1997, with Japan and Canada remaining thetop two origins. Top export destinations have remained Canada and Mexico. 22

Import and export data do not give a complete picture of global competition in the tool, die, andmold industries. Many firms in the sector have been affected by their U.S. customers movingmanufacturing operations abroad and, in so doing, also moving their sourcing of tools, dies, andmolds abroad. In addition, some foreign tool, die, and mold makers have set up shop in theUnited States.

20 By contrast, Canada accounted for half of all mold imports in 1997. Statistics for 2010 from the U.S. Department ofCommerce and U.S. International Trade Commission; 1997 data is USITC, Tools, Dies and Industrial Molds Chapter3, p. 40.21 Ibid. Data for 1997, p. 44.22 Ibid, pp. 41 and 45.


11/20



The USITC report cited earlier pointed out that the growing share of U.S. motor vehicle production owned by foreign companies was causing

particular difficulties for the U.S. tooling firms serving the automotive industry since manyof these firms have largely concentrated their efforts on marketing their tooling to the BigThree automotive OEMs [original equipment manufacturers: General Motors, Ford andChrysler], often to the exclusion of foreign transplants.... At the same time, foreignautomobile transplants in the United States have tended to continue tooling supplierrelationships with toolmakers located in their home countries, some of which haveestablished U.S. production operations to improve services.... It is often difficult for U.S.toolmakers to penetrate this market segment due to a reluctance by the foreign-basedconsumers to disrupt existing supplier relationships. 23

A 2011 report issued by Case Western Reserve University found that the erosion of auto industrytool and die makers accelerated as the U.S. economy weakened in the economic crisis of 2007and afterwards. After surveying small- and medium-sized auto supplier firms, the authorsconcluded that these

firms have been outsourcing high-skill jobs, such as tool and die making, to lower-wagecountries like China, reducing demand for these skilled trades within the U.S. Specifically,our survey indicates that 56.9 percent of tool and die plants have off-shored some work as aresponse to the crisis or beforehand, whereas 41.6 percent of non-tool and die plantsrespondents have done so. Tool and die plants have off-shored to high wage countries(41.2%) such as western Europe and Japan, to low-wage countries (41.2%) and to both highand low wage countries (25.5%). 24

Following the recent recession, two divergent global manufacturing trends are affecting the U.S.tool and die industry. The first is Chinas growing presence in the manufacture and worldwideshipment of auto parts. The auto industry has been designated a pillar industry by the Chinesegovernment and it has major plans to expand auto and auto parts production. 25 Since 2008,Chinese auto parts exports to the United States have climbed by 43% to roughly $10 billion,

according to the USITC.26

Several recent reports argue that auto parts production and exports arehighly subsidized by the Chinese government. 27 Auto parts manufactured abroad which displaceU.S.-made auto parts would likely reduce the demand facing domestic tool and die makers. Sometool and die executives believe that Chinese tools and dies will continue to have an advantage forhigh volume, less sophisticated parts manufacturing. They believe that will leave a continuedmarket for U.S. tool and die makers producing high quality and precision tools, such as those that

23 Ibid, pp. 37-38.24 Susan Helper, et al., The U.S. Auto Supply Chain at a Crossroads: Implications of an Industry in Transformation ,Case Western Reserve University, August 1, 2011, p. 25,http://www.drivingworkforcechange.org/reports/supplychain.pdf. This report was funded by a grant from the U.S.

Department of Labors Employment and Training Administration, as part of the American Recovery and ReinvestmentAct (ARRA). The authors are researchers in Michigan, Ohio and Indiana; they used both survey and other availabledata in their analysis.25 U.S. Congress, Joint Economic Committee, China's Economic Future: Challenges to U.S. Policy , edited by John P.Hardt and Robert Mottice, 104th Cong., 2nd sess., p. 296.26 "Chinese Auto-Parts Influx Worries Lawmakers," Politico , January 31, 2012.27 One report is by Robert Scott and Hilary Wething, Jobs in the U.S. Auto-Parts Industry Are at Risk Due toSubsidized and Unfairly Traded Chinese Auto Parts , Economic Policy Institute, January 31, 2012,https://docs.google.com/viewer?url=http://www.epi.org/files/2012/bp336.pdf&hl=en_US&chrome=true.


12/20



shape the intricate stampings for the interior metering components of automobile shocks andstruts. 28

The other factor, which runs counter to the rise of Chinese imports, is the expansion ofmanufacturing capacity in the United States, possibly opening new opportunities for domestic

tool and die builders. This shift in some kinds of production back to the United States is beingdriven by several factors. The increase in the value of the Chinese currency (the renminbi), whichhas appreciated more than 28% since China first permitted a controlled appreciation in 2005; 29 ismaking goods produced in China more expensive here, as is a Chinese government-backed effortto raise wages in many Chinese industrial regions. In addition, increasing logistics costs due

primarily to the rise price of petroleum used to ship products from China to the United States isalso a cost factor that may favor more domestic production. Many manufacturers located withinthe United States may prefer U.S.-made tools and dies to imports, as domestic producers are oftenable to deliver their tools and dies more quickly and can more easily provide support at thecustomers premises. For example, a Wisconsin manufacturer of injection-molded plastic parts

began sourcing tools in China in 2004, but now says that it buys 90% of its tools domestically because of shorter delivery times from U.S. companies and rising prices for Chinese tools and

dies.30

How tool and die makers will fare with these new supply chain developments is not clear. As ifanticipating some return of U.S. manufacturing, the Case Western Reserve report noted that off-shoring is not necessarily permanent. The authors observed that tool and die jobs are sufficientlycomplex, that off-shoring can be more difficult, time-consuming and costly than firms initiallyexpect. Thus, even as quality increases at off-shore locations, some high-skill work remains on-shore and some initially outsourced work eventually returns to the United States. 31 The earlierUSITC study found a similar preference for manufacturers to source higher-value, lower-volume

production domestically, where quality and finish are a major consideration. 32 Should such supplychain shifts take place in durable goods industries, there could be an increased demand for thetool and die work that underpins such production.

There are alternative views, however. A recent Brookings Institution report contends that even ifexchange rates are set by market forces and labor cost advantages abroad diminish, it is veryhard to revive an industry after its sales and employment have dramatically shrunk. Once thedense network of suppliers disappears, the fall in the dollar required to justify reinvestment ismuch greater than that necessary to expand existing operations....The frayed production networksin such industries as tooling and electronics should be cause for great concern. 33

28 CRS interview on February 7, 2012 with Ron Overton, president, Overton Industries, with plants in Mooresville andFranklin, Ind., http://www.overtonind.com.29 For an analysis of the Chinese currency issues, see CRS Report RS21625, China's Currency Policy: An Analysis ofthe Economic Issues , by Wayne M. Morrison and Marc Labonte.30 CRS interview on November 21, 2011 with Tom Duffey, founder of Plastic Components, Germantown, Wisconsin,http://www.plasticcomponents.com.31 Susan Helper, et al., The U.S. Auto Supply Chain at a Crossroads , p. 25, footnote 34.32 USITC, Tools, Dies, and Industrial Molds, Chapter 3, p.38.33 Susan Helper, Timothy Krueger, and Howard Wial, Why Does Manufactuirng Matter? Which Manufacturing

Matters? , Brookings Institution, February 2012, p. 30.


13/20



It is possible that global production patterns may also shift work from China to other, lower-costlocations such as India, Vietnam, or Indonesia, or to Chinas lower-cost interior cities. Someeconomists and business analysts believe this is more likely than significant new manufacturing

production coming to the United States. 34 Should these locations be new sites for manufacturing,the U.S. tool and die industry would most likely not see a rise in production and employment.

The Tool and Die Labor ForceTool and die makers are machinists who understand how to use complex machines such as lathes,laser cutting machines, and milling machines. They must be familiar with handtools, heat-treatingand plating. Because their work requires that parts fit together well in final assembly, they mustknow how to use precision measuring devices that measure precision to one ten-thousandth of aninch. In addition, they must be proficient in mathespecially geometry, trigonometry andstatisticsand blueprint reading, and have a good working knowledge of physics. As theDepartment of Labor Occupational Outlook Handbook describes the work,

once a tool or die is designed, tool and die makers, working from blueprints, plan thesequence of operations necessary to manufacture the tool or die. They measure and mark the

pieces of metal that will be cut to form parts of the final product. At this point, tool and diemakers cut, drill or bore the part as required, checking to ensure that the final product meetsspecifications. Finally, these workers assemble the parts and perform finishing jobs, such asfilling, grinding and polishing surfaces. 35

Tool and die workers are responsible not only for designing the parts-making machines, but alsofor quality checks on the parts being produced by their tools and dies. Among the tools they useto gauge accuracy are measuring machines which employ sensors and software to compare thefinal products with the blueprints. Before a tool or die is turned over to the customer, workersmay have to file, grind, and otherwise adjust it to ensure that the product being produced exactlymeets specifications. While tool and die makers do most of their work in their own manufacturing

production facilities, they may visit customers plants to observe operations and suggest changesin methods and processes.

Technology is changing the tool and die makers work. One tool and die maker estimated thattechnology and software applications have raised product quality and made tool and die makersas much as 20% more efficient. 36 Many workers now use computer-aided design (CAD) to design

parts and blueprints for machines. Computer-aided manufacturing (CAM) programs take theCAD designs and convert them into sequenced instructions for cutting tools. Finally, computernumerically-controlled (CNC) machines follow the instructions embedded in the software to

produce the part. While machinists may operate the CNC machines, tool and die makers, who aretrained in writing CNC programs, may also be CNC operators.

34 Josh Timberlake, Phil Schneider, and Shirley Dong Terry, China: Still Manufacturings Shining Star? , Deloitte,January 18, 2011, http://www.deloitte.com/view/en_US/us/Insights/Browse-by-Content-Type/deloitte-review/de0ee6545eea2210VgnVCM200000bb42f00aRCRD.htm.35 Bureau of Labor Statistics, Occupational Outlook Handbook, 2010-2011 Edition , Tool and Die Makers,http://www.bls.gov/oco/ocos225.htm.36 Michael Korneli interview.


14/20



According to BLS, the path to becoming a fully trained tool and die maker includes four to fiveyears of part-time classroom work in a nearby community or technical collegewhile workingfull-timeand on-the-job training. The course work and training are often structured around anapprenticeship program in which students work a 40-hour week in a tool and die setting whileattending classes at night.

This type of training is necessary for tool and die makers to work with CAD/CAM and CNCmachine tools, which are the basic high-techology components in most tool and die shops today.Even after the apprenticeship, workers will continue training and usually specialize in a particulararea, choosing certain types of tools, dies, and molds to apply their expertise.

Other attributes necessary to be a successful tool and die maker include attention to detail and precision, ability to communicate with customers and colleagues, and ability to analyze complex problems, often interconnected to the rest of the product. According to BLS, these skills are bestlearned from on-the-job training and experience in the profession. For this training andexperience, tool and die makers are well paid, earning on average about $52,000 a year (notincluding health care and other benefits) and, with overtime, much more. 37

The Next GenerationLike other manufacturers, tool and die firms express concern about a looming skills shortage.Older workers, who are likely to have learned their trade mainly on the job, often do not have theskills needed in a highly computerized environment. A recent Washington Post profile onmanufacturing showed the issue at hand:

You dont see anyone advertising for just tool and die maker anymore, said TomWhitmore, 59, a tool and die maker who was laid off in 2009 after 33 years at a nearby auto

parts maker. They want CNC skills. For most of them, I cant apply. 38

The required level of skills is in evidence in a recent advertisement placed by RichardsonElectronics, Ltd. in Lafox, IL, which sought an employee who could design, construct, alter, andrepair a wide variety of tools, dies, jigs, fixtures and gauges to very close tolerances. You will

participate with a team in the development of new products, perform difficult tool roomoperations.... The job, paying up to $26 an hour, requires 8-10 years of experience, proof of anapprenticeship, and considerable ingenuity in building specialized complex tooling. 39

NTMA surveys show that 95% of tool and die members have openings, even with relatively highU.S. unemployment rates. 40 A recent survey-based report by Deloitte and the ManufacturingInstitute, which is associated with the National Association of Manufacturers, found that 74% ofrespondents were particularly concerned about the supply of skilled production workers, a

37 Annual Wages for the tool and die industry, from BLS, Quarterly Census of Employment and Wages, 2010 andCRS interview on August 5, 2011 with Dave Tilstone, president of the National Tooling and Machining Association(NTMA).38 "Wanted: Skilled Factory Workers," Washington Post , February 20, 2012.39 Careerbuilder.com , tool and die maker ad, Richardson Electronics, Ltd., Lafox, Illinois, viewed November 7, 2011,http://www.careerbuilder.com/JobSeeker/Jobs/JobDetails.aspx?IPath=QHKTCV0F&ff=21&APath=2.21.0.0.0&job_did=J3T55363Q1ZVVWFVBS4.40 Dave Tilstone interview.


15/20



category that includes tool and die makers. More than half of respondents said skills shortages areaffecting their level of production and about a third said they compromise quality and

productivity. 41

A survey by the Society for Human Resource Management (SHRM) had similar findings.

SHRMs 2011 survey reported that employers had the most difficulty in filling positions inmanufacturing, as well as in technology and health care. Within manufacturing, the two top professions in short supply were engineers and high-skilled technical employees. 42

NTMA has developed a multi-pronged effort to attract new talent into the tool and die industry(see Table 4) .

Table 4. Industry Skills Building InitiativesNTMA programs to attract new workers and raise skills levels for existing employees

NTMA Program Description Goal

National Robotics League (NRL) http://www.gonrl.org

Through nationwidecompetitions, NRL focuseshigh-school teams whodesign, engineer, build,compete, and learn aboutrobotics and themanufacturing and designskills behind such projects.

NRL seeks to connectparticipants with localmanufacturing companiesand to change theperception thatmanufacturing may not bean interesting and well-paying career path.

Apprenticeship Program The AdvancedManufacturing Practicesand EducationalDevelopment program(AMPED) includes training

and certification forregional training sites.Standards, best practices,and benchmarks areavailable to participantsthrough an Internet wiki.

NTMA envisions AMPEDwiki to be a one-stopresource for non-proprietary knowledgedeveloped by NTMA

members. According toNTMA, participation isself-directed. Regional sitespay a nominal fee for a CDand introductory materials,then form a committee todetermine training needsand develop a site plan.

NTMA University http://www.ntma.org/initiatives/education/

This new program offersan online curriculumthrough participatingeducational institutions.Students can earn anassociate degree.

This program of Internet-based learning, begun on alimited scale in 2011, isdesigned for entry-levelemployees and studentsparticipating in NRL.

41 Deloitte and the Manufacturing Institute, Boiling Point? The Skills Gap in U.S. Manufacturing , 2011, p. 8,http://www.themanufacturinginstitute.org/~/media/A07730B2A798437D98501E798C2E13AA.ashx.42 Julie Bennett, "Demand is High for Skilled Job Seekers," Wall Street Journal , November 7, 2011.


16/20



NTMA Program Description Goal

National Institute of Metal Working Skills (NIMS)https://www.nims-skills.org/web/nims/home

NIMS was formed in 1995by metalworking tradeassociations. It establishesindustry skills standards,

certifies individuals againstthe standards, andaccredits training programsthat meet qualityrequirements.

NIMS has developednational skills standards for24 operational areas in theU.S. metalworking

industry, such as tool dieand mold making. It isaccredited by theAmerican NationalStandards Institute (ANSI).

Source: National Tooling and Machining Association and National Institute of Metal Working Skills.

The NTMA priorities on training of existing workers and attracting new talent reflect the BLS projections for this industry. BLS forecasts that employment of tool and die makers shoulddecline modestly (by about 8%) by 2018 because of automation and ongoing foreign competition.BLS notes, however, that excellent job opportunities are expected as many openings will result

from worker retirement. The BLS report confirms that many employers are having trouble filling positions and that in the future, this shortage may well persist:

The number of workers receiving training in this occupation is expected to continue to befewer than the number of openings created each year by tool and die makers who retire ortransfer to other occupations. A major factor limiting the number of people entering theoccupation is that many young people who have the educational and personal qualificationsnecessary to learn tool and die making usually prefer to attend college or do not wish to enter

production occupations. 43

The lack of interest in careers in tool and die making has forced some tool and die makers to findother ways to make their products, primarily by increasing the use of more automated equipment.In some companies, lights-out manufacturing has become the norm: a night shift is run with

minimal worker involvement. Machines do much of the work that employees do in regular shifts.A Wisconsin tool and die maker notes on its website: we make sure your tooling is done whenyou need it even for short lead times. Our tooling department runs with lights-out (24-hour)operation to ensure that your deadlines are met. 44 In the absence of skilled workers, such highlyautomated production may increase.

Federal Policy IssuesSeveral federal programs are designed to bolster tool and die manufacturing. The Department ofCommerce aids tool and die makers through the Manufacturing Extension Partnership (MEP),which advises small manufacturers on how to improve their technology and workforce training,often in conjunction with local community and technical colleges. MEP was established by theOmnibus Trade and Competitiveness Act of 1988 (P.L. 100-418) to assist small and medium sizedcompanies compete more effectively in a global marketplace. It has centers in all 50 states andover 1,300 technical advisers to assist small manufacturers with technology acceleration, supplier

43 BLS, Occupational Outlook Handbook. 44 Tool Making, Inventix Manufacturing, http://www.inventix.com/toolmaking/index.php.


17/20



development, sustainability, workforce issues, and continuous improvement. It leverages about$100 million in annual federal funding into a $300 million program by adding state and localgovernment contributions and industry support. Clients pay fees for the consulting service theyreceive. According to MEP, over the last five years, it provided consultative services to 65 distincttooling clients 45 with 182 business improvement projects.

The level of MEP funding was a congressional issue several years ago, but in FY 2011 and 2012,federal appropriations have provided MEP with a level budget of $128.4 million; the PresidentsFY 2013 budget request proposes a slight decrease in the programs budget. Some MEPadvocates have argued for raising the permissible federal share level to 50% (from 33%), whileothers have argued for lowering it. Funding and the federal contribution level may be issuesdebated by Congress this year. 46

The tool and die industry has emphasized the importance of two pending tax issues. With somemachine tools used in production costing up to a million dollars each, the industry supports anextension of bonus depreciation and expensing provisions, which Congress enacted in 2010 andwhich expire at the end of this year. The Precision Metalforming Association (PMA) contends

that passage of the two provisions prompted an immediate increase in tool and die makerssales. 47 The industry has also urged creation of a private government guaranteed accounts-receivable insurance program to help tool and die makers, as companies may need to wait manymonths for payment by OEMs. 48

Because of the industrys role in defense production, the Department of Defense (DOD) supportsthe American Metalcasting Consortium (AMC) 49 with a $2.2 million budget to improve thedesign and production of critical cast parts. AMC works with industry associations and researchinstitutions to reduce lead times and costs, improve performance, and strengthen the supply chain.One recent project, in collaboration with Ohio State University, led to the use of new softwaretools so that die casting could be used for a DOD project. The changed process resulted in a 75%cost reduction and a savings of over a million dollars per year, according to AMC. 50

Tool and die makers also advocate for new federal policies with regard to China and workforcedevelopment which would pertain to a wide range of manufacturing:

A high priority for tool and die maker industry associations, such as NTMA andPMA, is dealing with China and other countries that are alleged to manipulatetheir currencies. The industry associations contend that currency manipulation isan illegal subsidy and should be considered such under U.S. trade laws. 51 TheSenate passed legislation on October 11, 2011 that would address this issueS.

45 Data represent clients in the 333514 NAICS Code (dies, jigs and fixtures). It does not include companies in NAICS333511 (molds). (NAICS is the North American Industry Classification System.)

46 For more information on the MEP program, see CRS Report 97-104, Manufacturing Extension Partnership Program: An Overview , by Wendy H. Schacht.47 CRS interview with PMA president Bill Gaskin, January 30, 2012.48 Access to Credit, One Voice ,a joint government and public affairs program of PMA and NTMA,http://www.metalworkingadvocate.org/issues_trade_enforcement.asp.49 AMCs website is http://amc.ati.org.50 Ibid, Success Stories.51 Trade Enforcement, One Voice, http://www.metalworkingadvocate.org/issues_trade_enforcement.asp.


18/20



1619, the Currency Exchange Rate Oversight Reform Act. In the House, H.R.639, the Currency Reform for Fair Trade Act, is similar to legislation passed bythe House in 2010, but no action has been scheduled in the House at this time. 52

The tool and die makers associations 53 call for a national manufacturing strategy to bedeveloped between the federal government, industry and educational institutions. Theindustry has been interested in federal participation in public-private partnerships thatwould help recruit and train workers in critical metalworking industries. The AmericaCOMPETES Act 54 authorized several new manufacturing programs at the CommerceDepartments National Institute of Standards and Technology (NIST), includingcollaborative manufacturing research pilot grants for partnerships between industry andother educational or research institutions to develop new manufacturing processes,techniques, or materials, but this program has not been funded.

52 For more information on legislation and issues related to Chinas currency, see CRS Report RS21625, China'sCurrency Policy: An Analysis of the Economic Issues , by Wayne M. Morrison and Marc Labonte.53 NTMA and PMA, Workforce Training, One Voice , http://www.metalworkingadvocate.org/issues_training.asp.54 P.L. 110-69.


19/20



Appendix. The Link between Die Making and AutoManufacturing

The auto industry is the largest user of tools and dies. In the following excerpt from the acclaimed book about the auto industry, The Machine That Changed the World ,55 the authors single out therole of die makers in both the design and building of cars. (The original text includes thefootnoted material cited.)

Simultaneous DevelopmentThe final technique separating lean from mass production in product development is simultaneous development. Tosee what we mean by this term, let's take the example of die development. ...Practically every car and light truck builtin the world today has a body constructed of stamped steel panels. The heavy metal forms, called dies, needed topress finished body panels out of sheet steel are among the most complex and expensive tools in the industrial world.They are made of exotic steel alloys for extreme strength and hardness and must be formed to tolerances of micronsacross continuously curving surfaces. What's more, the matching faces of the die (the upper and lower or "male" and"female" elements) must mesh with absolute precision. Otherwise, the sheet steel will tear or even melt to the face ofthe dies as the two pieces come together under tons of pressure.

The mass-production approach to die-making has been simple: Wait until the product designers give precisespecifications for the stamped part. Then, order an appropriate block of steel in the die-production department andcut it, using expensive, computer-driven, die-cutting machines. Because cutting proceeds through many steps involvingmany machines, this process means that the dies pile up waiting for the next machine to become available. Totaldevelopment time, from the first day that product designers order a new set of dies until the dies begin stampingpanels for production cars, is about two years. By contrast, the best lean producers-and they're all Japanese but nolonger only in Japan (Honda is designing and cutting dies for its Marysville, Ohio, plant at Marysville)-begin dieproduction at the same time they start body design. How can they? Because the die designers and the body designersare in direct, face-to-face contact and probably have worked together in previous product-development teams.

The die designers know the approximate size of the new car and the approximate number of panels so they go aheadand order blocks of die steel. Then they begin to make rough cuts in the steel, so it's ready to move to final cutting assoon as the final panel designs are released.

This process, of course, involves a considerable degree of anticipation. The die designer must understand the panel-design process as well as the panel designer does and be able to anticipate accurately the panel designer's finalsolution. When the die designer is correct, development time is drastically shortened. When the die designer iswrong (an infrequent occurrence), the company pays a cost penalty. Still, the original schedule can be met by givingthe catch-up die priority routing through the cutting process.

Also, the lean die makers seem to be much better at scheduling production in the die-cutting shop... The die cuttershave special, quick-change cutting tools, allowing one machine to handle many different types of cuts, so the dies thatare being cut spend much less time in queues.

What's the end result of this intense communication between panel designers and die makers plus accurateanticipation by the die makers and clever scheduling of flexible cutting machines? It means that the best leanproducers in Japan (and in Ohio) can produce a complete set of production-ready dies for a new car in one year,exactly half the time needed in typical mass-production die-making. 56 Not surprisingly, this process requires fewertools, lower inventories (since the key element, the expensive die steel, is in the shop only half as long), and lesshuman effort.

55 James P. Womack, Daniel T. Jones, and Daniel Roos, "Designing the Car," in The Machine That Changed the World (New York: Rawson Associates, 1990), pp. 116-117.56 Kim B. Clark and Takahiro Fujimoto, "Overlapping Problem-Solving in Product Development," in K. Feddows,

Managing International Manufacturing , 1989, Table 2.


20/20


Author Contact Information

Bill CanisSpecialist in Industrial Organization and Business [email protected], 7-1568

tool and die industry

Documents